Week 1-2: (3-slide/page, 6-slide/page, 2-slide/page) – Introduction: multiprogramming, multitasking, interrupt-driven, kernel, system calls, etc. (chapters 1,2)

Week 3 (3-slide/page, 6-slide/page, 2-slide/page) – Process: concept, PCB, context switch, Inter-Process Communication (IPC), Unix programming (signals, pipes). (chapter 3)

Week 4 (3-slide/page, 6-slide/page, 2-slide/page) – Thread: concept (vs process), thread models, multithreaded programming (Pthreads). (Chapter 4)

Week 5 (3-side/page, 6-slide/page, 2-slide/page) – CPU scheduling: criteria, algorithm, implementation. (chapter 6)

Week 6 (3-side/page, 6-slide/page, 2-slide/page) – Process Synchronization (I): critical-section problem & example, bakery algorithm, Peterson’s solution. (chapter 5.1-5.3)

Week 7 (3-side/page, 6-slide/page, 2-slide/page) - Process Synchronization (II): hardware solution, semaphore, classic problems (B-B, R-W, D-P). (chapter 5.4-5.8)

Week 8 (3-side/page, 6-slide/page, 2-slide/page) – Memory Management (I): logical vs. physical memory, address binding; Contiguous memory allocation. (chapter 8.1-8.3)

Week 9 (3-side/page, 6-slide/page, 2-slide/page) - Memory Management (II): paging, segmentation, examples. (chapter 8.4 -8.8)

Week 10 (3-side/page, 6-slide/page, 2-slide/page) – Virtual Memory: demand paging, replacement, thrashing. (chapter 9)

Week 11 (3-side/page, 6-slide/page, 2-slide/page) – Protection and Security. (chapter 14-15)